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2. LITERATURE REVIEWS AND HYPOTHESIS
Development of biomass utilization technologies has been increasingly needed towards prevention of the global greenhouse
effect and creation of the recycling-oriented society. Biomass gasification can increase options for combination with various
power generation systems using gas engines, gas turbines, fuel cells and/or others to enhance power generation efficiency, and
also can open the door to examining power generation system configurations meeting site conditions, such as kinds of collectable
biomass, plant capacity, etc. Feasibility study on various power generation systems combined with gasification of various kinds
of biomass inevitably requires the application of adequate study on the performance and characteristics of the gasifiers and the
gasification processes.
A cyclone gasifier is specifically developed to gasify fine biomass material such as sawdust for power generation. Thus, it is
important to study the performance and characteristics of the existing design. The experimental work consists of biomass fuel
characteristics, investigation on fuel feeding and injection system, temperature profiles in the cyclone chamber and analysis of
producer gas. Furthermore, during the experimental conduct, the important parameters such as fuel feed rate, airflow rate and
equivalence ratio will be determined obtain stable and optimum gasification process condition. Therefore, a study on
performance and a characteristic of the cyclone gasifier is essential for proving the workability of the system. Sawdust is chosen
as the biomass fuel in this project because compared to other materials sawdust is easily and abundantly available as waste and
generally disposed of in landfill areas, since this is the cheapest way to manage it. Sawdust is readily available in dry pulverized
form which can be used directly without pretreatment process. The use of sawdust from wood-based industries must be carefully
analyzed to offer the best technical, economic and environmental alternative. The characterization (quantity, type, chemical and
energetic analysis) of the residues generated is essential to determine which technology is more suitable.
3. RESEARCH METHODOLOGY
There arae five main components in cyclone gasifier as shown in figure 1. The five components are fuel feeding system,
cyclone gasifier unit, injector system heat-up system and removing compartment. The units for feeding system are downcomer,
hopper and screw feeder . At first stage the sawdust is transfered to the downcomer from the hopper using the motion of the
screwfeeder which was installed at the top of the units. Next ,the sawdust is injected tangentially using an air-driven injector into
the cyclone. The injector directs the fuel and air mixture into the cyclone chamber in a tangential direction and generates swirl
flow in the cyclone. The swirl will force the incoming sawdust particles to follow the trajectory close to the cyclone wall.Via
vortex finder the gas exist from the cyclone, and the char falls toward the bottom outlet down to ash collector.
The cyclone gasifier units consist of conical and cylindrical parts which together form the body of the cyclone as shown in
figure 1. The thickness body of the gasifier gasifier body is 6 mm made by a mild steel plate . The internal diameter of cylindrical
body is 210 and have 1080mm height and a conical part connected to the bottom with the char collector . The inlet of the cyclone
has an internal diameter of 28mm and mounted tangentially on to the sidewall of the cylindrical parts of the cyclone body . The
vortex finder is fixed on top of the cyclone . The internal diameter of vortex finder is 80mm. to minimize heat loss some part of
the bodyof the cyclone gasifier is insulted with refractory types of cement.
Two main parts of feeding system is hopper and screwfeeder.A hopper is used to store sawdust screw feeder is to feed the
cyclone chamber. Sawdust falls to the screw feeder by gravity. The hopper designed applies funnel flow where the fuel flows
through the core. The hopper has a maximum capacity of 30 kg sawdust and the sawdust is stored in the hopper manually. Screw
feeder is used to feed sawdust from the hopper to the downcomer. The motor control the rotation of the screw feeder and the
microinverter control the t motor. The injector system consists of a downcomer and a fuel injector. The fuel injector is used to
supply air and inject sawdust into the cyclone chamber, while the downcomer connects the fuel injector and the screw feeder.
The fuel injector is consists of air ejector and air supply nozzle. The air nozzle will force the sawdust whilst air ejector will
induce the air/fuel mixture into the cyclone chamber. The cyclone chamber needs to be heated up before the injection process.
LPG burner was used for the heating process.
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